TrabTech
Trabecular Technologies (TraBTech) is a medical additive-manufacturing technology company focused on design and production of patient-specific implants and surgical planning models. The company provides design, engineering and consulting services for 3D anatomical modelling, topology-optimized implant design, and production using metal and polymer additive-manufacturing methods for cranial, maxillofacial and orthopedic indications. The site documents development of CE-marked implants, material selection work (PEEK and medical Ti alloys), and collaborations with clinical specialists.
Industries
Nr. of Employees
small (1-50)
Products
Patient-specific cranial implant
Custom cranial implants produced from patient CT data and manufactured via additive techniques for cranioplasty applications.
Patient-specific maxillofacial implant
Custom implants for oral and maxillofacial reconstruction manufactured from 3D anatomical models.
Patient-specific shoulder implant
Custom shoulder implants designed from patient imaging for anatomically adapted reconstruction.
Patient-specific pedicle screw guide
Custom surgical guide for pedicle screw placement produced from patient imaging and 3D printed for intraoperative use.
Patient-specific tibial cage implant
Custom tibial cage implants for reconstructive orthopedic applications produced using additive manufacturing.
CE-marked total hip prosthesis (metal AM)
A total hip joint prosthesis developed and CE-marked using metal additive-manufacturing methods and trabecular surface properties for fixation.
Patient-specific cranial implant
Custom cranial implants produced from patient CT data and manufactured via additive techniques for cranioplasty applications.
Patient-specific maxillofacial implant
Custom implants for oral and maxillofacial reconstruction manufactured from 3D anatomical models.
Patient-specific shoulder implant
Custom shoulder implants designed from patient imaging for anatomically adapted reconstruction.
Patient-specific pedicle screw guide
Custom surgical guide for pedicle screw placement produced from patient imaging and 3D printed for intraoperative use.
Patient-specific tibial cage implant
Custom tibial cage implants for reconstructive orthopedic applications produced using additive manufacturing.
CE-marked total hip prosthesis (metal AM)
A total hip joint prosthesis developed and CE-marked using metal additive-manufacturing methods and trabecular surface properties for fixation.
Services
Design and engineering services for patient-specific implants
End-to-end design workflow from medical-image processing and 3D anatomical modelling to topology-optimized implant design and pre-fabrication planning.
Additive-manufacturing production services (metal and polymer)
Manufacture of custom implants and anatomical models using metal powder-bed fusion and polymer 3D printing methods with material selection and production planning.
Training and consulting in medical AM and 3D modelling
Workshops and consulting covering medical-image-to-design workflows, DfAM, material selection and regulatory considerations.
Design and engineering services for patient-specific implants
End-to-end design workflow from medical-image processing and 3D anatomical modelling to topology-optimized implant design and pre-fabrication planning.
Additive-manufacturing production services (metal and polymer)
Manufacture of custom implants and anatomical models using metal powder-bed fusion and polymer 3D printing methods with material selection and production planning.
Training and consulting in medical AM and 3D modelling
Workshops and consulting covering medical-image-to-design workflows, DfAM, material selection and regulatory considerations.
Expertise Areas
- Medical additive manufacturing
- Patient-specific implant design
- 3D anatomical modelling and surgical planning
- Biomaterials for implants (PEEK, medical titanium alloys)
Key Technologies
- Selective laser melting (SLM) / powder-bed fusion
- Electron beam melting (EBM)
- Selective laser sintering (SLS)
- Fused filament fabrication (FFF) for high-performance polymers